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软组织肉瘤中Hippo信号通路失调促进FOXM1表达及肿瘤发生。

Deregulation of the Hippo pathway in soft-tissue sarcoma promotes FOXM1 expression and tumorigenesis.

作者信息

Eisinger-Mathason T S Karin, Mucaj Vera, Biju Kevin M, Nakazawa Michael S, Gohil Mercy, Cash Timothy P, Yoon Sam S, Skuli Nicolas, Park Kyung Min, Gerecht Sharon, Simon M Celeste

机构信息

Abramson Family Cancer Research Institute, Perelman School of Medicine at the University of Pennsylvania, Philadelphia, PA 19104;

Department of Surgery, Memorial Sloan Kettering Cancer Center, New York, NY 10065;

出版信息

Proc Natl Acad Sci U S A. 2015 Jun 30;112(26):E3402-11. doi: 10.1073/pnas.1420005112. Epub 2015 Jun 15.

DOI:10.1073/pnas.1420005112
PMID:26080399
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4491775/
Abstract

Genetic aberrations responsible for soft-tissue sarcoma formation in adults are largely unknown, with targeted therapies sorely needed for this complex and heterogeneous family of diseases. Here we report that that the Hippo pathway is deregulated in many soft-tissue sarcomas, resulting in elevated expression of the effector molecule Yes-Associated Protein (YAP). Based on data gathered from human sarcoma patients, a novel autochthonous mouse model, and mechanistic analyses, we determined that YAP-dependent expression of the transcription factor forkhead box M1 (FOXM1) is necessary for cell proliferation/tumorigenesis in a subset of soft-tissue sarcomas. Notably, FOXM1 directly interacts with the YAP transcriptional complex via TEAD1, resulting in coregulation of numerous critical pro-proliferation targets that enhance sarcoma progression. Finally, pharmacologic inhibition of FOXM1 decreases tumor size in vivo, making FOXM1 an attractive therapeutic target for the treatment of some sarcoma subtypes.

摘要

导致成人软组织肉瘤形成的基因畸变在很大程度上尚不明确,对于这一复杂且异质性的疾病家族,靶向治疗迫切需要。在此我们报告,在许多软组织肉瘤中,Hippo信号通路失调,导致效应分子Yes相关蛋白(YAP)表达升高。基于从人类肉瘤患者、一种新型的自发小鼠模型收集的数据以及机制分析,我们确定转录因子叉头框M1(FOXM1)的YAP依赖性表达对于一部分软组织肉瘤的细胞增殖/肿瘤发生是必需的。值得注意的是,FOXM1通过TEAD1直接与YAP转录复合物相互作用,导致众多关键的促增殖靶点协同调节,从而促进肉瘤进展。最后,对FOXM1的药物抑制在体内可减小肿瘤大小,使FOXM1成为治疗某些肉瘤亚型的有吸引力的治疗靶点。

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